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Evacuation Simulation of Shipboard Fire Scenarios. Camille Azzi , Andrew Pennycott, George Mermiris, Dracos Vassalos. Fire and Evacuation Modelling Technical Conference Baltimore, US August, 2011. Contents of the Presentation. Introduction IMO Guidelines on Evacuation
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Evacuation Simulation of Shipboard Fire Scenarios Camille Azzi, Andrew Pennycott, George Mermiris, Dracos Vassalos Fire and Evacuation Modelling Technical Conference Baltimore, US August, 2011
Contents of the Presentation • Introduction • IMO Guidelines on Evacuation • Modelling Approach • Case Study • Conclusions
Introduction – Ship Safety Safety becoming target hard to achieve as ships are getting more complicated • Prescriptive rules outdated • Alternative arrangements • Proactive approach
Introduction – Shipboard Fire • Fires are statistically most frequent hazards that ships face at sea Source: DNV • Shipboard fires are dangerous especially onboard passenger ships with dense occupancy
Introduction – Evacuation • Ease of evacuation is crucial under any hazardous condition www.shipevacuation.com • Normal drills differ from actual evacuations in fire and flooding events • Evacuation assessments are better done through modelling
Introduction – Ship Design Knowledge about the ship Assigned Costs Freedom to make changes Time ConceptDesign Contract
Introduction – Ship Design Knowledge about the ship Increased knowledge Decision making shift Freedom to make changes Time ConceptDesign Contract
IMO Guidelines on Evacuation • Demographic distribution of passengers • Walking speed according to demographics and route type Day case Night case • Response time follows lognormal distribution Time in seconds Time in seconds
Quantification of Fire Effects • Fire effects on human life safety • Toxicity (CO, CO2 and O2) • Heat (convection and radiation) • Visibility impairment (walking speed reduction) • Health status categories at different Fractional Effective Doses (FED)
Evacuees Reaction to Fire Effects • Initially passengers are assigned response times • Reaction lag ignored and evacuation triggered • directly exposed to fire effects • alerted by other passenger or crew • Avoid hazardous areas: modified graph
Case Study MVZ 2 MVZ 3 MVZ 1 Zone affected by fire conditions
Cumulative Evacuation Time No crew assistance Crew alert passengers in the affected area No injuries recorded
Conclusions • Difficulties of evacuation at sea: complex geometry, familiarity and fire effects • Study case highlights importance of crew assistance • Human behavior and decision-making currently simplified • Further development required based on observations from reported accidents
The authors greatly acknowledge the contribution of EC through the research project FIREPROOFwww.fireproof-project.eu THANK YOU